Lubrication



June22,1937. J, BUUR 2,084,316

. I LUBRICATION Filed March 11, 1930 s Sheets-Sheet 2 ZVKEr INVENTOR "\mmm 122M 05 fif "ur BY ATTORNEYS Patented June 22, 1937 UNITED STATES PATENT OFFICE,

LUBRICATION ware Application March 11,

56 Claims.

My present invention is shown embodied in a central chassis and engine lubricating system although the general principle of the invention is applicable to the distribution of other fluids for other purposes.

A general object of the invention is to provide a chassis lubricating system functioning automatically as long as the engine is running and requiring no attention, not even the charging of l a special reservoir or the manipulation of a valve or manual adjustment or operation, in order to initiate or maintain proper flow to the bearings.

Another object is to propel lubricant to the chassis bearings by the use of pressure mocha- 15 nism already present on the vehicle and to meter the lubricant for correct feed to various chassis bearings irrespective of varying propulsive pressures or varying viscosity of the oil in the distributing lines.

20 Another object is to accomplish in a chassis lubricating system, fed from a source of pressure inherently incapable of such action, automatic compensation for the retardation in oil flow due to the great increase in viscosity of the lubricant,

25 with falling temperatures.

Another object is to provide an installation by which ordinary engine oil may be delivered from the crank case continuously throughout operation of the vehicle and under the pressure exerted by 30 the engine oil pump substantially at the slow rate required by the chassis bearings, without jeopardy to the engine oiling system, even tho-ugh a break occurs in the chassis feed lines, without danger of overoiling or underoiling the chassis bearings or danger of clogging the flow passages with solid particles entrained with the crank case oil.

Another object is to provide a simple automatic master regulating unit for a system of the 49 above type having an automatic and inherent action to accomplish the flow compensation required.

Another object is reliably to accomplish the extremely slow yet diverse rates of feed to the dif-- 1930, Serial No. 434,846

sive construction, the various parts of which may be readily manufactured in quantity production, and are capable of ready access for cleaningand replacement of soiled filters.

A feature of the present invention is the provision of a centralized lubricant distributing system having flow restriction outlet branches, which is equipped with an automatic master regulator device through which the pump feeds to the lines, such regulator device being preferably in the nature of a thermostatic reducing valve operative to reduce higher pressure from the engine oil pump or other source'to a line pressure commensurate with proper feed of the lubricant under varying pump pressuresand varying temperatures of the oil in the distributing system.

The invention may be more fully understood from the following description in connection with the accompanying drawings wherein:- V

Fig. 1 is a fragmentary view of an automobile equipped with my improved lubricating system,

Fig. 2 is an enlarged broken, view in longitudinal section through the thermostatic pressure reducing valve which serves as the master regue lator,

Fig. 3 is a sectional detail on a still larger scale of the lower end of the regulator,

Fig. 4 is a similarly enlarged view in vertical. section through the upper end thereof.

Fig. 5 is a View taken on the scale of Fig. 2 showing an external view of the regulator,

Fig. 6 is a sectional detail on the line 6'-6 of Fig. 2, V

Fig. '7 is a top plan view of the regulator, V g V,

Fig. 8 is a sectional view through the engine oil pump showing the two outlets therefrom,

Fig. 9 is a vertical sectional view through. a modified form of master regulator, I v

Fig. 10 is a generally similar view partly in section and partly in. elevation at right angles to Fig. 9, v I A Fig. 11 is a bottom plan view of the1regulator,' of Fig. 9, I p e Fig. 12 is a sectional detail on the line. l2'l 2 of Fig. 9, and on an enlargedscale, and

Fig. 13 is a sectional detail of "one of the drip plugs of the system;

Referring now tothe drawingsthere is shown in Fig. 1 a general layout of. automobilechassis, indicating in diagrammatic. View the conventional oil pump [0 of a pressure engine oil lubrieating system having an inletpipe In and ,delivering through a suitable conduit 10 (Eig.. 8) to the variousengine bearings. lnparallel' with;

the outlet to the engine bearings, the engine" oil pump has another outlet pipe I I from which'thechassis lubricating system derives its lubricant. A by-pass return pipe In to the sump is normally 7 closed by a pressure relief valve V. The pipe 7 "l l leads to a regulator unit R the construction of which will be more fully described hereinafter. The unit R has an outlet I2 (Fig. 6) lead- .ing to the chassis distributing system. The latter I includes one or more main pipes P leading gen erally along structural parts of the vehicle and providing'with a multiplicity of outlet branches in parallel, leading to various chassis bearings. The outlet branches have flow proportioning resistances'which may be in the character of drip fplug fittings D'applied at the various-bearings.

These drip plugs are preferably of a character adapted to feed under very low pressure and ac cordingly valvelessor having valves seated by weak springs; I j '20' 'The drip'plug may be of any'of various possible constructions, examplesofwhicheare disclosed in my .prior Patent No. 1,632,772, ofi June. 14, 1927 and in the prior British patent to Auto Research" Corporation No'. 261,967 of March 13th, 1926.

A specific construction particularly useful in the present relation is shown in Fig. 13 and is quite similar to the disclosure of the prior British patent referred to; The construction need be described but briefly, as it is claimed herein 3 onlyin combination as a constituent part of the system as a Whole.

V The-drip plug comprises a cartridge unit 235 7 having an enlarged head 236 abutting at its edge against the bevelled bottom 23'!" of'the bearing socket. 'The shank of the cartridge of reduced diameter is encircled by the end or the feed pipe 'II which abuts against'the head and is clamped against said shank by a compression coupling comprising a tapered coupling sleeve 238 having a milled concave end 239 pressed. against the 2 also of accurately predetermined diameter; 50 which determines a crevice of definite resistance to flow'undera given pressure; The resistance or rating" of the cartridge will depend on the r L diameter of the pin and the rating will preferably be marked upon the cartridge. The pin is main tained in place within itsfbore by staking the cartridge as at 242 at the lower extremity of the Preferably a flap disk valve 243 is-disposed in an axial socket 244 within the head of the placement from said seat by'a closure cap 246 V staked in placewithin the head. a

A protectivestrainer241 is disposed ina cor- 65 responding enlargement 248 atfthe inletend of thef cartridge.' This strainer may comprise a reduced end toward theend of the pin and its rim trapped under an intiirned hea'd243 at the ex- 0 tremity of the cartridge.

With the system thus far described, assuming the effective pressure of the oil pump to be, such as to cause approximately correct feed of the oil through the drip plugs at a given temperature in summer, it will be apparent, that due to the length exposed to. the air.

oil inlet and outlet connections are attached may tremendous rise in viscosity of the oil inwinter V Say'to fifty times its value in summer, the pump wouldfeed only a small percentage of the requirements to the bearings in winter which would at that time be so greatly under-lubricated as to 5 s be substantially unlubricated.

r The ordinary engine oil pump isinherently un-' suitable,properly to lubricate the chassis u'nder the widely varying temperature-conditions thereat, especially so, sinceat the same time it must perform its primary function of engine lubrica 7 tion. By means of myregulatonthe engine oil pump is completely adapted for proper feed of the I chassis while engine lubricationfis' in no respect interfered with: j 3' i l5 The master regulator device illustrated in Figs.

2 to. 8 inclusive, preferably'comprises a 'head H and a shank R, the head. being mounted within 'one of the'forward corners of the engine compartment andthestem extendingdownwardly 20 through thedrip pan with substantially its entire The head H of the regulator within which all of the operating partsof the regulator are mounted and to which the conveniently comprise a pair of; castings l1 and l8 having opposed concavities I9, serving to define a diaphragm chamben The castings have I aligned clamping flanges 20 held together by securing devices 22 and gripping the edges of a 3 0 diaphragm 2lbetween them. I I V The center of the diaphragm is attachedto a valve stem23 which extends through a restricted central inlet opening 23 in the lower chamber of the headand through a pendant socket'portion 24 of the casting l8. The threaded upper end 25 of the rod passes through the diaphragm and is secured thereto by nuts 26 threaded on the rod and clamping stiffening discs 21 against opp'ositev faceslof the diaphragm, lower nut 26ebeing locked 40, bya locking nut 26.

Inlet passage 28 is preferablyof diameter only slightly greater than thatof the stem 23, which is fiatted at 29 to provide-clearance for the flow .of liquidthrough the passageway 28. The outlet l2 fromthehead is in the nature of an inclined generally radial passageway'iormed in .a radial web 10, integralwith the lower casting of the head but projecting radially therebeyond.

Outlet passageway l2 communicates with an up- 7 wardly facing socket 300 formed in the end of the Web 10 beyond the periphery of the flanges' 20.

A suitable fittingsuch for instanceasthe elbow,

fitting 30| is adapted to be applied. at the socket 300 to provide a passageway from the socket 300 5'5 to the main chassis feed line. Fitting 3!" has a V threaded extension'302 to screw into the socket and is formed at its other" end with a suitable socket 303 for the reception of a chassis outlet cartridge and coacts with an annular seat 245 i formed in saidhead and is limited in its dispipe such as the pipe P;

largement. A screw cap 33 with a nut conforma- 7 tion 33' for reception of'a wrench has an'enlargedcs i s internally threaded end'34 to screw over and close conically shaped area of wiretmesh having its the threaded lower end of the tubular shank 3|. 2 The cap 33 has an internal shoulder 35 exerting i pressure against the endof tubular shank 3| through an interposedgasket thereby to effect 7o 7 an oil-tight seal. 1

wardly facing shoulder. 38; A generally cup-' i ,60: The elongated shank Rincludesapipefl solj dered into the lowerenlarged end 30 of the socket 24 and abutting shoulder 32, defined by such enwasher 5? in the base of socket 5!.

shapedmember 39 slipped over the threaded'valve stem extension 37, is pressed upward against the shoulder 38 by a nut 48, backed by a lock nut 4|. The lower end of an elongated tubular thermostatic valve element 42 encircling valve stem 23 is screwed into the cup 39. The upper end of the long tubular thermostatic valve 42 is rounded or bevelled at 42a for coaction with a bevelled seat M at the inner end of socket 24.

A coiled expansion spring 45 in the upper chamber of head H urges the diaphragm 2i downwardly and tends to unseat the valve 42 to an extent limited by the abutment of nut 26 against the shoulder l8 of head piece 18.

The spring 45 is backed against a screw plug 36, provided with a screw driver slot 48, for the application of a tool to initially adjust the tension on said spring and may be locked against adjustment by tightening a clamp screw 49, passing through the spaced ears 5% of the split annulus within which the plug is threaded.

Laterally of the elongated pendant socket forming portion 2a, the casting i8 is provided with an outwardly facing, shallow socket 5i having a passageway 52 in its base communicating with the socket 24. Oil flowing through this passageway from the engine oil pump will fill the space between the valve (42 and its casing, and will fill the cavity below the diaphragm chamber.

A plug 53 screwed into the socket has a central boss or extension 54 internally threaded at 55 for the reception of an oil inlet fitting (not shown). The plug 53 has a peripheral ridge iii to clamp the periphery of felt filter 6% against a Preferably a corrugated wire mesh disk 58 in a corresponding shallow trough 5F serves as a backing for the filter.

In operation, at any season of the year, the apparatus will function as a pressure reducing valve, with spring 45 properly tensioned in accordance with the flow resistance of the distributing system. The pressure of oil entering through inlet 52 will be automatically reduced by the master valve to that required for feeding oil continuously at the rate required into the distributing system from which the oil is emitted at the desired rate determined by the individual drip plugs. More specifically, oil under pressure acting on the under side of the diaphragm 2i balances the spring 45 and causes the tapered end of'the valve 42 to seat against the socket end i. As pressure is relieved by outflow of oil from the diaphragm chamher, the spring will again open the valve and flow of oil past the valve will be resumed until the valve is properly balanced and a continuous stream of oil passes at a reduced pressure intothe diaphragm chamber and flows from the outlet l2 to and through the distributing system.

The pressure reducing valve is thus effective to maintain a nearly constant flow rate through the drip plugs under wide variations of pressure at the source.

If the pressure at the source should increase, the spring pressed diaphragm will automatically be deflected upward, correspondingly to restrict valve opening l2 l Z. If the pressure at the source should decrease, spring 45 will automatically urge the diaphragm downward to enlarge valve opening 62- 54. The resistance imposed by the valve az-r-s will at all times vary inversely with the pressure to maintain constancy of feed rate regardless of applied pressure.

Within ordinary summer and winter temperature ranges in the eastern part of they United States, a relatively tremendous variation in the fiow resistance of the chassis system. which is exposed to the weather may occur. Fifty times more line pressure may be needed in winter than in summer to maintain substantial constancy of oil feed to the chassis bearings.

This variation is automatically compensated for by the action of the thermostatic tube 42 which is of hard rubber or equivalent material having a relatively high coefficient of expansion. Since the valve 42 is anchored to cup 39 contraction of the valve 42 at low temperatures will increase the normal distance betweenthe valve and its seat 44.

To seat valve is a much greater deflection of the diaphragm and correspondingly greater deflection of spring 45 would be required than before.

As pressure is now relieved by outflow of oil from the diaphragm chamber, the spring l5 will maintain valve l2-Min a position of balance under the higher propulsive pressure required to maintain constancy of feed to the chassis system. At each temperature of use the thermostatic tube 42 thus determines the appliedpressure for the required feed of oil. I

By the selection of thermostatic material of suitable characteristics, temperature-induced changes in oil viscosity may be compensated for to any desired degree. Complete compensation, partial compensation or over-compensation according to any desired law is possible.

In practice, it is customary to assemble the device at a predetermined temperature with the valve abutting its seat and with the stop nut 26 which backs the nut 23, a predetermined distance ofi its seat.

Although the particular structure of the diaphragm chamber is subject to many modifications in accordance with the requirements of an individual system or with individual locations of use, the casting i8 is preferably formed at the side opposite the socket 55 with a pendant bracket portion ll connected to the head i 8 by a strengthening web l2. Bracket ll at its lower corners has apertured ears 3 for the accommodation of attachment screws.

Means is preferably provided to obviate the danger of robbing the engine of oil in case a break should occur in one of the chassis lubrieating lines. In the present case, such means takes the form of an emergency valve arranged within the fitting fiili and acting to automatically cut ofi fiow from the diaphragm chamber to the chassis lines in the event that a break occurs.

As best seen in Fig. 6, the vertical leg of the elbow fitting SM is formed with a relatively large passageway 3M therein and having a downwardly facing valve seat 305 at its top. A ball valve 3% is retained in this passageway by cross pin 30?, the ball being of insuflicient diameter to preclude the flow of oil through the passage 3M and through the reduced passage 308 beyond the valve seat.

This ball is preferably of a specific gravity not much greater than that of the oil, and with the normal slow flow of oil around it, it will sink in the oil and rest on its retaining pin. If however, a break should occur in the chassis line and a sudden increase of the velocity of oil flow should consequently occur, this will cause the oil to pick up the ball and seat it, the ball being there after held on its seat during operation of the vehicle by the sustained oil pressure behind it.

By virtue of the provision :of this emergency valve operating to close upon substantial in.- creases inthe flow rate of oil, even a clean break I in one of the chassis lines would not be'operative to rob the engine of oil.

While the master regulator isshown mounted in the forward lower corner of the engine compartment with the stem dependent below the frame, it will be obvious that the regulator may 1 be mounted at any suitable location where the thermostatic element thereof is exposed to atmospheric temperature and is not, unduly'ine fiuenced by the heat of the engine- V In Figs. 9 to 12,inclusive, is illustrated another form of the invention of different construction,

'but operating upon the principlesr of automatic regulation above described.

The diaphragm chamber is here formed by a pair of cup shaped. members I00 and IN; provided respectively with outwardly extending Y flanges I02 and ms between which the edge of f I the diaphragm I04 is clamped. To secure the r two Cup-shapedmembers together, flange I02 is 7 preferably provided with a plurality'of bendable I u fingers I05 wrapped around the flange I03 and In'this pressed into firm engagement therewith. case the 'oil inlet is through a valve controlled fitting I06 in the top of the cup I00 and the oil flows to the distributing line through outlet fittings I91 which, like the'fitting I06 have reduced portions I08 passed into the cup and flared v at I09 into engagement therewith.

I-Iereagain, the oil entering the diaphragm J chamber is filtered, the filter'pa'd IE0 and ;its

corrugated backing plate III of wire'mesh being clamped against the base of a socket H2 by a clamping plug II3. Socket H2, in this instance has a stem portion I I4 screwed over the inlet I06v and the plug I I3 is provided with threaded socket I I5 for the reception of an on inlet pipe. The

spring II 9 to normally unseat the valve ll8. v

- valve stem H6 extends 'through a reduced bore} VII? of the inlet fitting I06 and carries at its' upper end an inlet valve II8, coacting with bevelled upwardly facing seat H9. Valve stem II 6 is connect'edthrough thermostatic means,

about to be described, (and which vary the eiTe-ctive length of the stem 6) to the diaphragm I04, 7

which is urged, upwardly by coiled expansion Thefmeans for connecting the valve stem H6 to'the. diaphragm I04. may comprise a pair of spaced generally parallel bi-metallic thermo static elements I20, which at each end are con-' nected together in spaced relationship by straps 122 and I23 riveted at I24 to the thermostat bars and having overlapping. ears I25 pivotally connected together by a crosspin I26. This pin serves to provide, in efiect, a hinged connection between the ends of the bars to allow of their bowing under changing temperatures. The up-.

per bar is connected to the headed lower end I2I of the valve stem H 6 by a strap piece I28, fixed to the bar and having portions extending upwardly and overlying the head I2I. The lower fthermostat bar isjconnected to thediaphrag'm by V a rod or pin l29, 'thereduced upper end I of and through the lower thermostatic bar I20'overwhich provides an upwardly facing shoulder at I3I. The end of pin I29 passes not only through the diaphragm I04 but through the bases I32 .of the reinforcing, cups or washers I32, at oppo- 'site sides thereof, through a spacing washer I33,

which .it is spunat I34 to clamp these members against the shoulder 'I3I.' The upper reinforcing washer or cup I32 has diametrically opposed cutaway portions I35 therein to accommodate the thermostat bars I20. V 7

'The' construction above described incorporates Q the thermostatele'rhents as part of the conneclarged at its inner closed end asindicated at I. A set screw I42, screwed into the slot I40 adja-' cent its open end spreads the screw. plug and- 'jam's it into locked engagement withthe internally threaded wallof the cup extension I31.

V The spring H9 is made with comparativeaccuracy so that not more than one complete revojopening. through one side of the plug. This slot is en- The plug has an lution of theplug I36 is required for proper tension in the initial adjustment., Tolim it the rotation of the plug, ascrew capqI46 locked by,

inward protuberances I41, affords an inturned 1* stop I44 for a pin usprojectine fr mj h face i of the plug. i

The perforated, L-shaped attachment bracket I50 here shown is merely one. of various possible means of support. for attachment of the automatic'regulator of Figs. 9 to 12.: The operation of this form of the device is quite similar to the form shownin' Figsjl to 8. Briefly, the valve I I8 is normally unseated by the spring I I9 which acts through the diaphragm I04 and is'moved to a balanced position adjacent its seat as the spring is compressed bythe pressure ofoil on the diaphragm I04. Here again the balancing, pres-- sure-reducing spring renders the regulator'selfe compensating; for variations in'pressure at the pressure source and the thermostat renders it self-compensating for variations in the temperaj ture of the air and therefore o-f the oil in the distributing system. l u 7 Emergency. valves similar to the valve 302 of Fig. 6, may be employed just beyond'bothoutlets I01 if desired; v

With the form of the invention shown. in Figs. 1 to 8, the head of the regulator may bemounted within the engine compartment, since substantially the entire length of the thermostatic ele ment is exposed externally of the engine hood- The entire unit of Figs. 9 to 12 ispreferably mounted outside of the engine compartment, say,

for instance, on one of the chassis frame. bars near the forward end of the Car. With either form of regulator, it is preferable to have the thermostats in such relation with respect to the engine asto besubstantially unaffected thereby.

The pressure-reducing valve unit of the .present application and the thermostatic controlling device shown. in the embodiments of Figs. 1 to 7 and Figs. 9 to 12 may bebroadly applied in connections other than in. chassis lubrication. tothe control of liquid or lubricant flow to various. 7

places of use and disposal.

I claim:--- t 1. A branched fluid distributing system having flow controlling outlets of invariant flow re sistance, a pressure source feeding fluid into said] systemiat a pressure in excess of the pressure re" 'quired' to force fluid through the outlet, devices at" f the desired rate and'a pressure reducing valve obstructing and restricting the flow interposed" between said pressure source and the branches of said system, saidfio-w controlling outlets having a resistance so much higher than that of the distributing system as to have a predominating said outlets as to have a predominating control of r the amount of fluid fed into the system.

2. A branched fluid distributing system having flow Controlling outlets of invariant flow re-- sistance, a pressure source feeding fluid into said system at a pressure in excess of the pressure required to force fluid through the outlet devices at the desired rate and a pressure reducing valve obstructing and restricting the flow interposed between said pressure source and the branches of said system, said valve being operative automatically to compensate for variations in pressure at the source.

3. A centralized lubricating system including a source of lubricant under pressure, a branched distributing system having flow restricting outlets and a master regulator interposed in the path of flow from the pressure source to the distributing system, said regulator comprising a pressure reducing valve obstructing and restricting the flow operative to insure a substantially constant rate of flow ino the distributing system regardless of the pressure at the source.

4. A branched oil distributing system having flow controlling outlets of invariant flow resistance, a pressure source feeding oil into said system at a pressure in excess of the pressure required to force oil through the outlet devices at the desired rate and a pressure reducing valve obstructing and restricting the flow interposed between said pressure source and the branches of said system, said valve being operative automatically to compensate for variations in pressure at the source, and thermostatic means acting on the reducing valve to compensate for increased flow resistance in the distributing system due to increase in oil viscosity with fall in temperature.

5. In a centralized lubricating system of the type including distributing conduits having outlets of invariant relative flow resistance, a source of lubricant, and pressure means tending to oversupply said distributing conduits with lubricant at pressures greater than that required for proper emission from the outlets, and a master regulator valve device obstructing and restricting the flow acting to reduce said pressure to the extent required for insuring the desired flow rate from the outlets, said valve device having an obstructing and restricting effect so predominating as compared to the restriction of said outlets as to control the desired flow rate from said outlets, said outlets in turn. controlling the distribution of lubricant as between the outlets but not the total amounts of lubricant supplied to said outlets.

6. In a centralized lubricating system of the type including distributing conduits having outlets of invariant relative flow resistance, a source of lubricant, and pressure means tending to oversupply said distributing conduits with lubricant at pressures greater than that required for proper emission from the outlets, a master regulator device obstructing and restricting the flow acting to reduce said pressure to the extent required for insuring the desired flow rate from the outlets, said device including a valve means and a thermostatic means controlling said valve means, said device serving to compensate automatically for variations in the flow resistance of the distributing system induced by temperature variations.

'7. In a centralized lubricating system of the type including distributing conduits having putlets of invariant relative flow resistance, a source of lubricant, and pressure means tending to oversupply said distributing conduits with lubricant at pressures greater than that required'for proper emission from the outlets, and a master regulator device obstructing and restricting the flow acting to reduce said pressure to the extent required for insuring the desired flow rate from the outlets, said regulator comprising a reducing valve acting automatically to maintain any desired flow rate through the distributing system.

8. In a centralized lubricating system of the type including distributing conduits having outlets of invariant relative flow resistance, a source of lubricant, and pressure means tending to oversupply said distributing conduits with lubricant at pressures greater than that required for proper emission from the outlets, and a master regulator device acting to reduce said pressure to the extent required for insuring the desired flow rate from the outlets, said means including a yielding adjustable pressure absorbing element interposed between the source and the outlets of the distributing system.

9. In a centralized lubricating system of the type including distributing conduits having outlets of invariant relative flow resistance, a source of lubricant, and pressure means tending to oversupply said distributing conduits with lubricant at pressures greater than that required for proper emission from the outlets, and a master regulator device obstructing and restricting the flow acting to reduce said pressure to the extent required for insuring the desired flow rate from the outlets, said device including a spring controlled valve and. a thermostatic means actuating said valve, said device automatically compensating for changes in flow retarding efiect due to changes in temperature of the lubricant.

10. A fluid distributing system comprising a central reservoir, a central pump receiving lubricant from said reservoir, a distribution system with branched piping conduits having a plurality of restricted outlets and a single inlet, said inlet being provided with a thermostatically operated pressure reducing valve including a casing and a. diaphragm therein, said casing having an inlet and outlet therein at one side of the diaphragm, a valve associated with the in1et,-a valve seat cooperating with said valve, a spring acting on the diaphragm to normally open the valve and thermostatic means regulating the normal distance between the valve and its seat when the valve is fully unseated by the diaphragm.

11. A fluid distribution system comprising a central reservoir, a central pump receiving lubricant from said reservoir, a distribution system with branched piping conduits having a plurality of restricted outlets and a single inlet, said inlet being provided with a thermostatically operated pressure reducing valve including a casing and a diaphragm therein, said casing having an inlet and outlet therein at one side of the diaphragm, a valve connected to said diaphragm and associated with the inlet, a valve seat cooperating with said valve, a spring acting on the diaphragm to normally open the valve and thermostatic means regulating the normal distance between the valve and its seat when the valve is fully unseated by the diaphragm, the thermostat comprising an elongated piece of thermostatic material.

12. A fluid distribution system comprisinga central reservoir, a central pump receiving lubricant from said reservoir, a distribution system with branched piping conduits having a plurality cant from said reservoir, a distribution system 7 with branched piping conduits having a plurality 7 of restricted outlets and a single inlet, said inlet being provided with a thermostaticallyoperated pressure reducing valve including a, casing and a diaphragm therein, said casing having an inlet ofjrestri'cted outlets and a singleinlet, said inlet being provided with a thermostatically operated" seated'by the diaphragm, the thermostat com-j prising an elongated piece of thermostatic material, one end of which constitutes the valve;

13. A fluid distribution system comprising a central reservoir, a central pump receiving lubri- -and outlettherein'at one side'of the diaphragm, a valve having a stem connected to said diaphragmand a'ss'ociatedwith the inlet, a valve seat cooperating with said valve, a spring acting on the diaphragm" to {normally open the" valve. and

ther'mostatic means regulatingthe'normal distance between the valve" and its seat whenthe valve is fully unseated by the diaphragm, the

thermostat comprising an elongated piece of thermostatic'material one end of which constitutes the valve, said material being connected to traction;

the valve stem" but 'free for expansion or con- Y 14. In a centralized flubricatingsystem' of the character in which branched distributing conduits are provided withoutlets of invariant high I properemission'fr'om the-system, a thermostatic master regulator-device obstructing 1and{restric t- 'flow resistance, a pressure source normally developing a pressure in excess of that required for v ing the flow arrangedbetweenthe pressure source {and the distributing system' and: reducing "the pressure of the'flubricant passing into said system to anexterit approximately inversely pro- I portional'to the viscosityof the lubrioant in the -system.- r i V V V I 15.In a centraliz'd lubricating system of the character which includes distributing conduits having flow proportioning outlets of invariant high fiow resistance, a lubricant source, means for forcing the lubricant under pressure from said source 'into'said system and a master 'regulating device interposed in the line of i flow from" the source to the system, said regulating device'comprising a pressure reducing valve thermostatically f-centra'l reservoir, a central pump receiving'lubricantffrom said reservoir, a distribution'system "with branched piping "conduits having a plucontrolled to compensate for temperatureinduced changes in the viscosity of the lubricant.

l6-. A fluid distribution system comprising a rality of restricted outlets and afsingle'inlet, said inlet being provided with a'master regulator unit of the class described including a'dia-phragm casing having-fan inlet androutlet, a diaphragm in thecasinjg a valve stem connected to the dia- "phr'agm and extending through said inlet; a valve carried by the valve'ste'm an d controlling the flow r of lubricantinto the'diaphragm casing, a spring "fit n o'iithegdiaphragm to normally unseat the t g i valve, a 'casirigffor'the valveandstem, andmeans carriedj-byla portion ofsaid casing for ,iiltering V theoilfenteringthe latters f valve-"being; movable relatively to its stem 17 A fluid distribution system comprising a central reservoir, a central pump receiving lubricant from said reservoir, a distribution, system with branched piping conduits having a plurality V of restricted outletsand a single inlet, said inlet 7 being provided with a master regulator unit of the class described including a diaphragm casing having an inlet and outlet, a diaphragm in the i casing, a valve stemic'onnectedto thediaphragm and extending through said'inlet, avalve carriedby the'valve'stem and controlling the flow of lubricant into the diaphragm casing, a spring.

acting on the diaphragm to normally unseat the Y valve, a'casing for the valve and stem, and means carried by a portion of said' casing for filtering the oil entering the latter, the valve comprising a bar of thermostatic material, one end of which coacts with a seat in the valve stem casing.

18. A fluid distribution system comprising a central reservoir, a central pump receiving lubrl cant from said reservoir, a distribution: system with branched pipingconduitshaving a plurality of restricted outlets and a single inlet, said inlet being provided with a valve mechanism including I a valve body having a valve seat, a valve stem working through the body, a valveiixed to the "stem and spring means normally tending toun- 'seatsaid valve, said valve being of, a material 7 having a high co-eificient' of expansion and free, i to expand or'contract and thereby vary its normal distance from the seat.

'19; A fluid distribution system comprisinga' central reservoir, a central pump receiving lubricant from said reservoir, a distribution system with branched piping eonduits having a plurality of restricted outlets and a single inlet, said inlet being provided with a thermostatic valve comprls- I ing an elongated hard rubber tube, a seat with which one endof' said tub'eis adapted to coact, a valve stem mounting the valve, means acting on the stem to normally maintainthe valve 'in pre- 7 determined position relatively toits seat, said changing temperature conditions. j

20. In an automotive vehlcle 'including a chas- Y sis, anj'engine and an engine oil pump deriving lubricant from the crankcase of the engine a chassis lubricant systemiincluding' a plurality of t' i distributing conduits having outlets to the bear-v ings to be'lubricated; said engine oilpump being arranged to discharge part'of its charge into the distributing conduits and a thermostatically i f controlled flow reducing valve interposed between the pumpfand the conduits. r V

V .21. In an automotive vehicleincluding achassis, an engine and an engineoil pump'deriving .lubricant'from the crank case .of the engine, a

chassis lubricant system including a plurality of distributing conduits having outlets to i the bearings to'be lubricated, saidengine oil pump being of the engine with" its thermostat arrangedsub under (301 arranged to discharge part ofrits charge into the distributing conduitsand athermostatic flow re- 7 ducing valve interposedJbetween the pump'and the conduits, said valve being mounted forwardly i 'stan'tially exteriorly oi the engine compartment.

22. In an automotive vehicle including a chas V sis, and anen'gine compartment thereon, a chas-f' sis lubricating system including a sourceg of oil mounted on the chassis; a system of conduits haw-1 7' ingoutlets at the bearings tobeoiled, means Kie Q "riving'oil ffrom said'sourc'e and forcing itunder V I pressure' into saidiconduits, ,anda master reguf I jlator at the inlet'to said conduits thermostatically r jgcontrollingthe pressure of the oil fed thereto,

yin

accordance with the temperature of the outer air.

23. In an automotive vehicle including a chassis, and an engine compartment thereon, a chassis lubricating system including a source of oil mounted on the chassis, a system of conduits having outlets at the hearings to be oiled, means deriving oil from said source and forcing it under pressure into said conduits, and a master regulator at the inlet to said conduits thermostatically controlling the pressure of the oil fed thereto in accordance with the temperature of the outer air, said regulator being disposed adjacent the front of the engine compartment with its thermostatic element substantially unaffected by temperatures prevailing in said compartment.

24. A centralized lubricating system including a source of lubricant under pressure, a branched distributing system having flow restricting outlets and a master regulator comprising a spring operated reducing valve interposed in the path of flow from the pressure source to the distributing system, thermostatic means coacting with said valve to compensate for increased flow resistance in the distributing system due to increase in oil viscosity with fall of temperature, the spring becally influenced pressure reducing valve interposed in the path of flow from the pressure source to the distributing system, the reducing valve including spring means normally tending to unseat the valve and thermostatic means increasingly tending to unseat the valve as the temperature lowers.

26. A centralized lubricating system comprising a fluid distribution system comprising a central reservoir, a central pump receiving lubricant from said reservoir, a distribution system with branched piping conduits having a plurality of restricted outlets and a single inlet, said inlet being provided with a master regulator unit including a casing and a diaphragm therein, a valve stem connected to the diaphragm, a valve on the stem coac-ting with a seat fixed relatively to the casing, a spring acting on one side of the diaphragm and acting to unseat the valve, oil inlets and outlets in the diaphragm casing at the side opposite the spring and a source of oil under pressure, said oil normally flowing past the valve into the diaphragm casing and acting on the diaphragm to tend to seat the valve.

27. A centralized lubricating system comprising a fluid distribution ystem comprising a cen tral reservoir, a central pump receiving lubricant from said reservoir, a distribution system with branched piping conduits having a plurality of restricted outlets and a single inlet, said inlet being provided with a. master regulator unit including a casing and a diaphragm therein, a valve stem connected to the diaphragm, a valve on the stem coacting with a seat fixed relatively to the casing, a spring acting on one side of the diaphragm and acting to unseat the valve, oilinlets and outlets in the diaphragm casing at the side opposite the spring, a source of oil under pres sure, said oil normally flowing past the valve into the diaphragm casing and acting on the diaphragm to tend to seat the valve, and thermostatic means determining the pressure required to seat the valve.

28. A centralized lubricating system comprising a fluid distribution system comprising a central reservoir, a central pump receiving lubricant from said reservoir, a distribution system with branched piping conduits having a plurality of restricted outlets and a single inlet, said inlet being provided with a master regulator, unit including a casing and a diaphragm therein, a valve stem connected to the diaphragm, a valve on the stem coasting with a seat fixed relatively to the casing, a spring acting on one side of the diaphragm and acting to unseat the valve, oil inlets and outlets in the diaphragm casing at the side opposite the spring, a source of oil under pressure, said oil normally flowing past the valve into the diaphragm casing and acting on the diaphragm to tend to seat the valve, thermostatic means determining the pressure required to seat the valve, and said means including a thermostat unit forming part of the valve stem and operated to vary the length of the latter.

29. A centralized lubricating system comprising a fluid distribution system comprising a central reservoir, a central pump receiving lubricant from said reservoir, a distribution system with branched piping conduits having a plurality of restricted outlets and a single inlet, said inlet being provided with a master regulator unit including a casing and a diaphragm therein,avalve stem connected to the diaphragm. a valve on the stem coacting with a seat fixed relatively to the casing. a s ring acting on one side of the diaphragm and acfing to unseat the valve, oil inlets and outlets in the diaphragm casing at the side opposite the spring, a source of oil under pressure, said oil normally flowing past the valve into the diaphragm casing and acting on the diaphragm to tend to seat the valve, thermostatic means determining the pressure reouired to seat the valve, said means comprising a thermostat element immersed in the oil at the region of the master regulator.

30. A centralized lubricating system comprising a fluid distribution system comprising a central reservoir, a central pump receiving lubricant from said reservoir, a distribution system with branched piping conduits having a plurality of rer stricted outlets and a single inlet, said inlet being provided with a master regulator unit including a casing and a diaphragm therein, a valve stem connected to the diaphragm, a valve on the stem coacting with a seat fixed relatively to the easing, a spring act-ing on one side of the diaphragm and acting to unseat the valve. oil inlets and outlets in the diaphragm casing at the side opposite the spring, a source of oil under pressure, said oil normally flowing past the valve into the diaphragm casing and acting on the diaphragm to tend to seat the valve, and thermostatic means determining the pressure required to seat the valve. said means comprising a thermostat element arranged in the casing and immersed in the oil therein.

31.' A centralized lubricating system comprising a fluid distribution system comprising a central reservoir, a central pump receiving lubricant from said reservoir, a distribution system with branched piping conduits having a plurality of restricted outlets and a single inlet, said inlet being provided with a master regulator unit including a casing and a diaphragm therein,avalve stem connected to the diaphragm, a valve on the stem coacting with a seat fixed relatively to "the cas-V ing, a spring acting on one side of the diaphragm and acting to unseat the valve, oil inlets and outo lets in the diaphragm casing atthe'side opposite the spring, a source of oil under pressure, s'aid oil normally flowing past the valve into the diaphragm casing during operation of the system and acting on thediaphragm to tend toseat the valve, and means arrangediexteriorly of the,

casing adjustable to regulate the tension of the spring. a i

321 A fluid distribution system comprising a central reservoir, a central pump receiving lubricant from said reservoir, a distribution system with branched piping conduits having a plurality of restricted'outlets and a single inlet, said inlet being provided with a master regulator unit cf the class described including a casing compris member I through which oil flows into the tubular member,

ing an upperchamber and a' dependent tubular communicating therewith, a filter a valve controlling the flow of'liquid from'the tubular member into the chamber, a diaphragm in the chamberlconnected to the 'valve and a a spring acting on the diaphragm to unseat the valve;

33.,A fluid distribution system comprising a central reservoin'a central'pump receiving lubrlcent from said reservoir, a distribution system with branched pipingconduits having a plurality of'restricted outlets and a singleinlet, said inlet being provided with a 'master regulator un t of the class described including'a casing comprising an upper, chamber and a dependent tubular member communicating therewith, a'filter through which oil flows into the tubular memben a valve controlling the-flower liquid from the tubular member'into'the chamber, a diaphragm in'the chamber connected to the valve and a spring acting on the diaphragmto unseat the valve, and

thermostatic means in the tubular member supplementing the actionof the spring and compensating for temperature induced changes 1n viscosity of'the oil, V V- l 34. A fluid distribution system comprising a central reservoir, a central pump receiving lubricant; from said reservoir, a distribution system,

with branched piping conduits having a plurality of restricted outlets and a single inlet, said w inlet being provided with a master regulator unit for centralized lubricating, systems including a casing and a diaphragm therein, a valve stem 7 connected to the diaphragm, a valve on theste'm coa'cting with a seat fixed'relatively to the casing,

a spring acting on one side of the diaphragm and acting to unseat the valve; oil inlets and outlets in the diaphragm casing at the side oppositethe spring, a source of oil under pressure, said oil normally flowing past the valve into the'diaphra-gm casing during operation of,the system and acting on the diaphragm to tend to seatthe central source of oil maintained at a substantial- 1y constant temperature, a branched distributing system having flow restricting outlets at the bearvarying temperatures of the air,means for for cing oil from said source under pressure into the o adjustment.

valve, and means'arranged exteriorly of the casing adjustable to regulate the tension of the spring, and means limiting the 35. A chassis" lubricating system including a ings to be oiled, said outlets being subject to the distributing conduits and master regulator means obstructing and restricting theflow also subject extent of said to temperature changes interposed between the pressure source andthe outlets and tending to maintain a uniform rate ofemission from the" outlets under varying temperature conditions/ '36. A centralized lubricating system including source of lubricant under pressure, a branched distributing'system having flow restricting out' lets and a master regulator interposed in the path of flow from thepressure'source to the distributing system, said {regulator comprising a 7 pressure reducing valve operative to insure a substantially constant rate of flow into the distributing system regardless of the pressure atthe 37. A centralized lubricating system including a source of lubricant under pressure, a branched distributing system having flow restrictingoutlets and a master regulator interposed in the path of flow from the pressure source to the distributing system, said regulator comprisinga pressure re ducing valve'cperative to insure a substantially constant rate of flow, into the distributing system regardless of the pressure at the source, said source also circulating lubricant to another place of use otherthan said system, and means responsive to the velocity of oil flow to cut off such flow when a break or substantial leak occurs between the regulator and the outlets, whereby said place of use will not be deprived of its lubricant supply; 38. A centralized lubricating system including a'source of lubricant under pressure, a branched distributing system having flow restrictingfout lets and a master regulator interposed in the path of flow from'the pressure source to the distributing system,'said regulator comprising a pressure reducing valve operative to insure a substantially constant rateof flow'into the distributing system regardless of the pressure at the source, said source also:circulating lubricant to another place of use other than said system, and

an emergency valve at the regulator outlettocut off flow of oil from the outlet when a leak occurs in the distributing system beyond the regulator,

whereby said place'of use will not be deprived of its lubricant supply.

39. An engine and chassis lubricating system including a sourceof oilsupply and a pump, outlet conduits leading in parallel from the pump to the engine and the chassis system respectively; the chassis system including a plurality. of distributing conduits having ,fio'iv restricting outlets at the bearings to 'be oiled and includingia master regulatordevice-through which oil from the pump must pass to reachthe distributing 7 conduits, said pump normally developing a pressurein excess of that required for passing lubricant at the desired'rate to the chassis bearings, said master regulator being operative to automatically reduce'varying pump pressure to the pressure required for proper feed to the chassis:

bearings. a

'40. An'engine and chassis lubricating system including. a source of oil supply and a pump, outlet conduits leading in parallel from the'pump to the engine and the chassis system respectively,

the chassis system including a plurality of dis-. tributing conduits having flow restricting outlets, at the bearings to be oiled and including a mas;

ter regulator device through which oilfrom the a pump must passto reach: the distributing conduits, said pump normally developing a pressure in excess of that required for passing lubricant at the desired rate to the chassis bearings, said master regulator being operative to automatically reduce varying pump pressure to the pressure required for proper feed to the chassis bearings, and a by-pass pipe from the pump to the lubricant source operable to limit the maximum pressures under which oil is delivered by the pump.

41. An engine and chassis lubricating system including a source of oil supply and a pump, outlet conduits leading in parallel from the pump to the engine and the chassis system respectively, the chassis system including a plurality of distributing conduits having flow restricting outlets at the bearing to be oiled and including a master regulator device through which oil from the pump must pass to reach the distributing conduits, said pump normally developing a pressure in excess of that required for passing lubricant at the desired rate to the chassis bearings, said master regulator being operative to automatically reduce varying pump pressure to the pressure required for proper feed to the chassis bearings, a by-pass pipe from the pump to the lubricant source operable to limit the maximum pressures under which oil is delivered by the pump, and means disposed at a restricted part of the chassis lubricating system in advance of the distributing conduits sensitive to the velocity of oil flow and operating when a leak occurs in the chassis system to cut oif feed of oil thereto.

42. An engine and chassis lubricating system including a source of oil supply and a pump, outlet conduits leading in parallel from the pump to the engine and the chassis system respectively, the chassis system including a plurality of distributing conduits having flow restricting outlets at the bearings to be oiled and including a master regulator device through which oil from the pump must pass to reach the distributing conduits, a relief valve limiting the pressure developed at the pump and the master regulator including a pressure reducing valve regulating the pressure applied at the outlets.

43. An engine and chassis lubricating system including a source of oil supply and a pump, outlet conduits leading in parallel from the pump to the engine and the chassis system respectively,

the chassis system including a plurality of distributing conduits having flow restricting outlets at the bearings to be oiled and including a master regulator device through which oil from the pump must pass to reach the distributing conduits, a relief valve limiting the pressure developed at the pump, the master regulator including a pressure reducing valve regulating the pressure applied at the outlets, and thermostatically compensating for increased flow resistance in the system due to fall in temperature.

44. A fluid distribution system comprising a central reservoir, a central pump receiving lubricant from said reservoir, a distribution system with branched piping conduits having a plurality of restricted outlets and a single inlet, said inlet being provided with a master regulator device of the class described including an upper chamber and a dependent tubular memher, a diaphragm in the chamber, a valve stem connected to the diaphragm and extending into the hollow tubular member, an inlet in the hollow tubular member, a flow passage from the tubular member into the chamber, an outlet from the chamber, a valve carried by the stem and adapted to coact with a seat in advance of said flow passage, and a spring acting on the diaphragm and normally tending to unseat the valve.

45. A fluid distribution system comprising a central reservoir, a central pump receiving lubricant from said reservoir, a distributionsystem with branched piping conduits having aplurality of restricted outlets and 'a single inlet, said inl etbeingprovided with amaster regula tor device'of the class described including an upper chamber and a dependent tubular member, a diaphragm in the chamber, a valve stem connectedtothe diaphragm and extending into the hollow tubular member, an inlet in the hollow tubular member, a flow passage from the tubular member into the chamber, an outlet fromthe chamber, a valve carried by the stem and adapted to coact with a seat in advance of said fiovv passage, and a spring acting on the diaphragm and normally tending to unseat the valve, said valve comprising a hollow bar of thermostatic material attached at its lower end only to the valve stem, the other end of the bar coacting with the seat.

46. A fluid distributing installation comprising a a branched conduit system having flow controlling outlets of substantially invariant flow resistance, a pressure source feeding fluid into the inlet of said system and a temperature-responsive variable flow resistance obstructing and restricting the flow associated with said inlet in the course of flow from the pressure source to the inlet of said system, said temperature-responsive resistance affording decreased obstruction and restriction with lowered temperatures .5.

and increased resistance and obstruction with elevated temperatures.

47'. A fluid distributing installation comprising a branched conduit system having flow controlling outlets of substantially invariant flow'resistance, a pressure source feeding fluid into the inlet of said system and a pressure-responsive variable flow resistance obstructing and restricting the flow associated With said inlet in the course of flow from the pressure inlet of said system.

48. A centralized lubricating installation of type subject to wide variations of temperature in use, including a source of pressure, a distributing system connected thereto, regulating means interposed between the source and the distributing system to maintain substantial constancy of feed at various temperatures, said means comprising a flow rate control element in series with the distributing system, differential pressure responsive means regulating said element actuated by the back pressure in said system, and temperature responsive means regulating said element upon changes in temperature of the lubricant passing therethrough.

49. In a liquid distribution system, a series of distributing conduits, a source of pressure common to said conduits, a liquid supply common to said conduits and a thermostatic spring seated valved lubricant flow controlling device also comsource to the mon to said conduits positioned between the valve means to: control the lubricant pressure supplied to said distribution system from said pump- 7 51. In a centralized lubricating system, the

combination of a source of lubricant under pressure, 'a plurality of bearings 'to be'lubricated, a

main conduit having branch conduits connecting said source with said bearings, means between the source and main conduit for adjustably controlling'the pressureof the lubricant in the main and 'branchj conduits, and temperature controlled minimize variations in flow rate under varying.

resistance. conditions,' said regulator means including a flow resisting valve throughwhich lubricantflows to the system and means responsive to temperature variations to determine the setting of said, valve'tor flow resistance thereof in inverse ratio to that of said distributing system.

53. A branched fluid distributing system'having flow controlling outlet devices subject during 7 operation to wide variations inflow resistance, a 1

pressure source feeding fluid into saidsyst'em, and regulator means interposed between said pressure sourceand the branches of said system to minimize variations in flow rate under varying resistance conditions;said regulator means including'a flow resisting valve through which lubricant flows to thesystem and means responsive to temperae ture' and pressure variations to determine the settingof said valve for flow resistance thereof in inverse ratio to that of said distributing system. p a V p 54. 111 a centralized lubricating system, the

combination of a source of lubricant under pres sure,:a plurality of bearings to .be lubricated, a V

' main conduit having branch conduits connecting said source with said'bearing's, means between trolling the pressure of the lubricantin the main and branch conduits, and temperature controlled means foridetermining the adjustment of'said last named means in accordance with changes in; viscosity of the lubricant due to temperature changes, said. temperature control means comprising a pressure responsive device, a connection to subject said pressure responsive deviceto the lubricant pressure in said system, a spring tobias said pressure responsive device against said lubricant pressure in said system, a valve actuated by said pressure responsive device, and thermostatic means controlling the position of said valve in respect; to said pressure responsive device.

.55. In a centralized lubricating system; the combination'of a source of lubricant'unde'r pressure, a plurality of. bearings .ito' be lubricated, a

main conduit having'branch conduits connecting said source with said bearings, means between the source and main conduit for adjustably-control- 'the source and main conduit foradustablyconling the pressureof the-lubricant in the main and branch conduits, and pressure. control means for determining the adjustmentof saidlast named means in accordance with changes in pressureat' 7 said source. V

' Q; 56. In .a centralized lubricating systemythe Y combination of a source of lubricant under presr sure, a plurality of hearings to be lubricated, a

-main conduit having, branch conduits connecting said source with'said bearings, means between the source and main conduit for adjustably control-.

ling the pressure of the lubricant in the main and branch conduits. and pressure control meansjfor' determining the adjustment of said last named means in accordance withchanges in pressure at said souroe.saidfpressure control means including a pressure responsive device,- a connection to said pressure responsive device to apply .to one 'side of said pressure responsive device the lubriv p cant pressure in, said system, resilient means biasing said pressure responsive device against the lubricant pressure insaid system and a valve actuated by said pressure responsive-device. V

' JOSEPH BIJUR; 

